3 Archives - Department Of Physics University of Patras https://physics.upatras.gr/en/semester/3/ School of Natural Sciences Fri, 31 May 2024 16:18:51 +0000 en-US hourly 1 https://wordpress.org/?v=6.9.4 Master Thesis https://physics.upatras.gr/en/pms-courses/master-thesis-3/ Fri, 31 May 2024 16:18:51 +0000 https://physics.upatras.gr/pms-courses/master-thesis-3/ The post Master Thesis appeared first on Department Of Physics University of Patras.

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]]> Master Thesis https://physics.upatras.gr/en/pms-courses/master-thesis-2/ Fri, 31 May 2024 16:02:21 +0000 https://physics.upatras.gr/pms-courses/master-thesis-2/ The post Master Thesis appeared first on Department Of Physics University of Patras.

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]]> Master Thesis https://physics.upatras.gr/en/pms-courses/master-thesis/ Fri, 31 May 2024 08:27:50 +0000 https://physics.upatras.gr/pms-courses/master-thesis/ The post Master Thesis appeared first on Department Of Physics University of Patras.

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]]> Electromagnetism I https://physics.upatras.gr/en/courses/electromagnetism-i/ Sun, 16 May 2021 17:53:26 +0000 https://physics.upatras.gr/courses/electromagnetism-i/ 1.         Electric interaction – Electric charge and Coulomb’s law 2.         The static electric field in vacuum (vector and scalar description) –Gauss’s law-Electric dipole 3.         Conductors in electrostatic equilibrium –Capacitance and Capacitors 4.         Dielectrics - Polarization of dielectrics - Gauss’s law in the presence of polarized dielectrics 5.         Electric current – Conductivity of solid conductors - Resistance and Ohm’s law 6.         Electromotive [...]

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]]> 1.         Electric interaction – Electric charge and Coulomb’s law
2.         The static electric field in vacuum (vector and scalar description) –Gauss’s law-Electric dipole
3.         Conductors in electrostatic equilibrium –Capacitance and Capacitors
4.         Dielectrics – Polarization of dielectrics – Gauss’s law in the presence of polarized dielectrics
5.         Electric current – Conductivity of solid conductors – Resistance and Ohm’s law
6.         Electromotive force and direct current circuits
7.         Magnetic interaction and its origin
8.         The static magnetic field in vacuum – Biot / Savart law – Ampere’s law – Gauss’s law in Magnetism -Magnetic dipole
9.         Magnetisation of matter
10.       Electromagnetic induction – Faraday’s law
11.       Inductance and Mutual Inductance
12.       Alternating currents (general properties) – Alternating current circuits
13.       Maxwell’s equations .and introduction to Electromagnetic Waves

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]]> Mathematics for Special Applications https://physics.upatras.gr/en/courses/mathematics-for-special-applications/ Sun, 16 May 2021 17:50:18 +0000 https://physics.upatras.gr/courses/mathematics-for-special-applications/ Partial Differential Equations –  Fourier Series–Fourier Integral– Fourier Transforms– Complex Analysis : 1. Basic definitions. 2. The one-dimensional wave equation. 3. Transverse oscillations of an elastic membrane. 4. Heat flow in a specific direction. 5. Continuity equation. 6. The method of separation of variables. 7.  The wave equations in polar and spherical system of coordinates. 8. The [...]

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]]> Partial Differential Equations –  Fourier Series–Fourier Integral–

Fourier Transforms– Complex Analysis :

1. Basic definitions.

2. The one-dimensional wave equation.

3. Transverse oscillations of an elastic membrane.

4. Heat flow in a specific direction.

5. Continuity equation.

6. The method of separation of variables.

7.  The wave equations in polar and spherical system of coordinates.

8. The eigenvalue problem Ly=λy.  The theorem of Sturm-Liouville.

9. Laplace equation in Cartesian, polar, cylindrical and spherical system of coordinates. Dirichlet’s problem.

10. Fourier Series. Fourier Integral. Applications.

11. Wave propagation along an elastic chord of infinite length.

12. Poisson equation. Helmholtz equation.

13. Fourier Transforms.

14. Complex numbers.

15. Complex functions.

16. Derivative of complex function.

17. Complex integration.

18. Integral types of Cauchy and theorems.

19 Taylor-Laurent Series and Integral residuals.

20. Conformal mapping

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]]> Electronics https://physics.upatras.gr/en/courses/electronics/ Sun, 16 May 2021 17:43:13 +0000 https://physics.upatras.gr/courses/electronics/ Ohm law, Kirchhoff’s rules, electrical network basic theory. RC networks. Introduction tο semiconductor theory. Silicon diodes, structure and operation, equivalent circuits. Application of diodes (rectifiers, clamp circuit). Bipolar transistor (BJT), structure and operation, electrical equivalent circuits. Elementary amplifier circuits with BJT transistors, common-emitter and common-collector amplifier. Introduction to MOS transistors, structure and operation, equivalent circuits

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  • Ohm law, Kirchhoff’s rules, electrical network basic theory.
  • RC networks.
  • Introduction tο semiconductor theory.
  • Silicon diodes, structure and operation, equivalent circuits.
  • Application of diodes (rectifiers, clamp circuit).
  • Bipolar transistor (BJT), structure and operation, electrical equivalent circuits.
  • Elementary amplifier circuits with BJT transistors, common-emitter and common-collector amplifier.
  • Introduction to MOS transistors, structure and operation, equivalent circuits

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    ]]>         Introduction to Probability and Statistics https://physics.upatras.gr/en/courses/gcc307n/ Sun, 16 May 2021 17:42:28 +0000 https://physics.upatras.gr/courses/introduction-to-probability-and-statistics/ Basic probability. Random variables. Distributions of random variables. Expected (mean) value and generating functions. Limit theorems. Distributions of sampling statistics. Point and interval estimation. Testing hypotheses. Curve fitting, regression and correlation

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    ]]>     Basic probability. Random variables. Distributions of random variables. Expected (mean) value and generating functions. Limit theorems. Distributions of sampling statistics. Point and interval estimation. Testing hypotheses. Curve fitting, regression and correlation

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    ]]>         Physics Laboratory III https://physics.upatras.gr/en/courses/plc211/ Sat, 08 May 2021 20:24:06 +0000 https://physics.upatras.gr/?post_type=courses&p=1340 his course consists of 8 experiments that help the students to understand better the course of Physics II: Thermodynamics, Waves and Optics that is based on the book of Serway, Physics for Scientists and Engineers, Vol III. The titles are: Transverse and longitudinal waves. Thermal expansion of insulators and conductors. Measuring the ratio γ=cp/cv  with the [...]

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    ]]>     his course consists of 8 experiments that help the students to understand better the course of Physics II: Thermodynamics, Waves and Optics that is based on the book of Serway, Physics for Scientists and Engineers, Vol III.

    The titles are:

    • Transverse and longitudinal waves.
    • Thermal expansion of insulators and conductors.
    • Measuring the ratio γ=cp/cv  with the methods of Clements-Desormes, Ruchardt and Rinkel.
    • Visible spectroscopy with a prism and a grating spectrometer.
    • Visible spectroscopy with a spectrophotometer and a PC.
    • Polarization of light- Kerr effect.
    • Thin lenses- fiber optics and renewable energy sources.
    • Electromagnetic waves-Michelson interferometer.

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